CN213482795U - Be applied to high stability SSD fixed bolster of mainboard - Google Patents

Abstract

The utility model relates to a be applied to high stability SSD fixed bolster of mainboard, it is including the mount of installation SSD and the spacing part of injecing the SSD position, the standing groove of placing SSD is seted up to the mount upper surface, spacing part arranges standing groove one end in, spacing part is including the butt plate of injecing the SSD position, a plurality of springs that drive butt plate removed and the gusset plate that further increases SSD stability, spacing part slides and connects in the standing groove, the butt plate, spring and gusset plate connect gradually, when the standing groove is arranged in to SSD, butt plate butt in SSD, the gusset plate is kept away from the lateral wall of SSD and has been seted up the inclined plane, inclined plane one end sets up towards being close to the butt plate direction, the sliding block butt in the inclined plane. This application has SSD to arrange in the standing groove, thereby the butt joint board in SSD injects the SSD position under the spring action, and the piece that slides promotes the gusset plate, makes the gusset plate remove towards being close to the butt joint board direction, increases the compression capacity of spring, makes the effort increase of butt joint board and SSD, is convenient for keep the stable effect in SSD position.

Description

Be applied to high stability SSD fixed bolster of mainboard

Technical Field

The application relates to the field of a fixing frame, in particular to a high-stability SSD fixing support applied to a mainboard.

Background

The solid state drive is called SSD for short, and is commonly called solid state disk, which is a hard disk made of solid state electronic memory chip arrays. The SSD is mainly connected to a computer motherboard, and has higher and higher frequency of use because of its advantages of fast read/write speed, strong shock and fall resistance, low power consumption, portability, and the like.

At present, the SSD is usually mounted on the SSD fixing bracket, and then the SSD fixing bracket is fixed to the chassis, and then the SSD is directly connected to the motherboard or connected to the motherboard through the data line.

In view of the above-mentioned related art, the inventor believes that the SSD is generally mounted on the fixing support by the bolts, and the bolts are easy to slip after the SSD is mounted and dismounted for many times, which causes poor stability of the SSD fixing support for fixing the SSD, and makes the SSD easily fall off from the SSD fixing support.

SUMMERY OF THE UTILITY MODEL

In order to keep the SSD position stable, the application provides a high stability SSD fixed bolster of being applied to the mainboard.

The application provides a be applied to high stability SSD fixed bolster of mainboard adopts following technical scheme:

the utility model provides a be applied to high stability SSD fixed bolster of mainboard, is including the mount of installation SSD and the spacing part of injecing the SSD position, the mounting upper surface is seted up the standing groove of placing SSD, spacing part arranges standing groove one end in, spacing part is including the butt joint board of injecing the SSD position, a plurality of springs that the drive butt joint board removed and further increases the gusset plate of SSD stability, spacing part slides and connects in the standing groove, butt joint board, spring and gusset plate connect gradually, when the standing groove is arranged in to SSD, butt joint board butt in SSD, the gusset plate is kept away from the lateral wall of SSD and has been seted up the inclined plane, inclined plane one end sets up towards being close to the butt joint board direction, the sliding block butt in the inclined plane.

Through adopting above-mentioned technical scheme, SSD arranges the standing groove in, thereby the butt joint board is injectd the SSD position in SSD under the spring action, and the piece that slides promotes the gusset plate, makes the gusset plate remove towards being close to the butt joint board direction, increases the compression capacity of spring, makes the effort increase of butt joint board and SSD, is convenient for keep SSD stable in position.

Optionally, the standing groove has been seted up near the lateral wall of gusset plate and has been slided the groove, the sliding block slides and connects in the groove that slides, the sliding block upper surface is fixed with the push rod that is convenient for promote the sliding block, the promotion groove has been seted up to the mount upper surface, promote groove and sliding groove intercommunication, the push rod slides and connects in promoting the groove.

Through adopting above-mentioned technical scheme, the push rod is convenient for the user and removes the sliding block, and the sliding block promotes the gusset plate and operates more portably.

Optionally, the fixing frame is connected with a positioning component for limiting the movement of the push rod, the positioning component includes a sleeve coaxially sleeved on the push rod and a butting ring butted on the fixing frame, the sleeve is in threaded connection with the upper end of the push rod, and the butting ring is coaxially fixed on the side wall of the sleeve.

Through adopting above-mentioned technical scheme, rotate the sleeve, make the sleeve move down, when butt ring butt in the mount, the sleeve position is injectd to inject the sliding block position, make the stable reinforcing plate that promotes of sliding block, the reinforcing plate keeps stable to the stress of butt plate, makes the stable limited SSD position of butt plate.

Optionally, the side wall of the placing groove is provided with a rotation limiting groove for limiting rotation of the push rod, the lower surface of the sliding block is fixed with a rotation limiting block, the rotation limiting block is connected to the rotation limiting groove in a sliding mode, and the cross section of the rotation limiting block is polygonal.

Through adopting above-mentioned technical scheme, the limit commentaries on classics piece is arranged in the limit commentaries on classics inslot to inject the sliding block and rotate, position remain stable when making the sliding block butt gusset plate, when the sleeve rotates, the sliding block can not rotate, has still promoted sliding block position accuracy when the positioning element of being convenient for is injectd the sliding block position.

Optionally, the side wall of the abutting plate far away from the reinforcing plate is fixed with a buffer pad for improving the stability of the SSD.

Through adopting above-mentioned technical scheme, blotter and SSD butt reduce because the influence that vibrations brought SSD.

Optionally, a plurality of ventilation holes for ventilation and heat dissipation are formed in the side wall of the placing groove, which is far away from the opening of the placing groove.

By adopting the technical scheme, the ventilation holes are convenient for the heat dissipation of the SSD, the temperature rise of the SSD during working is slowed down, and the SSD reading speed is kept stable while the service life of the SSD is prolonged.

Optionally, the fixing frame is fixed with the fixing plate on two sides, a plurality of fixing holes penetrate through the upper surface of the fixing plate, a shock absorption sleeve for increasing shock resistance of the fixing frame is arranged in each fixing hole, the shock absorption sleeve comprises a head portion and a tail portion, the diameter of the head portion is larger than that of the fixing holes, the head portion is arranged outside the fixing holes, the tail portion is arranged in the fixing holes, and positioning bolts for limiting the position of the fixing frame are arranged in the shock absorption sleeve.

By adopting the technical scheme, the shock absorption sleeve is sleeved on the positioning bolt, so that the vibration of the case to the fixing frame is reduced, and the position of the fixing frame is kept stable.

Optionally, a plurality of fans for dissipating heat are arranged on the lower surface of the placing groove.

By adopting the technical scheme, the fan dissipates heat to the SSD, the heat dissipation effect of the SSD is increased, and the temperature rise of the SSD during working is slowed down.

Optionally, the sliding block is provided with an abutting inclined surface near the side wall of the reinforcing plate, and the abutting inclined surface is parallel to the inclined surface.

Through adopting above-mentioned technical scheme, increase the area of contact between sliding block and the gusset plate, reduce the wearing and tearing between sliding block and the gusset plate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the butt joint board butt under the spring action in SSD, inject the SSD position, and the anchor plate is promoted to the sliding block, and the anchor plate moves towards the butt joint board direction to increase the compression of spring, make the stress increase between spring and the butt joint board, further increase the stability of SSD.

2. The sleeve is rotated to move the sleeve downwards, and the abutting ring abuts against the fixed frame, so that the position of the sliding block is limited, and the position of the reinforcing plate pushed by the sliding block is kept stable.

Drawings

Fig. 1 is a structural view illustrating a high-stability SSD fixing bracket applied to a main board according to an embodiment of the present application;

FIG. 2 is a schematic view showing a push rod, a guide block and a damping sleeve according to an embodiment of the present application.

Description of reference numerals: 1. a fixed mount; 11. a placement groove; 12. a sliding groove; 13. a rotation limiting groove; 14. a vent hole; 15. a fixing plate; 151. a fixing hole; 152. a shock-absorbing sleeve; 1521. a head portion; 1522. a tail portion; 153. positioning the bolt; 16. a guide groove; 17. a push groove; 2. a limiting component; 21. a reinforcing plate; 211. an inclined surface; 212. a guide block; 22. a spring; 23. a butt joint plate; 231. a cushion pad; 3. a positioning member; 31. a sleeve; 32. a butting ring; 4. a sliding block; 41. a push rod; 42. abutting against the inclined plane; 43. a rotation limiting block; 5. a fan.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a high stability SSD fixed bolster of being applied to mainboard, the position of fixed SSD that can be stable.

Referring to fig. 1, a be applied to high stability SSD fixed bolster of mainboard includes mount 1 and spacing part 2, and mounting bracket 1 upper surface has seted up standing groove 11, and in the fixed slot was arranged in to SSD, spacing part 2 was arranged in SSD one side, and spacing part 2 slides and connects in standing groove 11, and spacing part 2 includes butt joint board 23, a plurality of spring 22 and gusset plate 21, and butt joint board 23, spring 22 and gusset plate 21 pass through bolt fixed connection in proper order. The abutting plate 23 abuts against the SSD, and the reinforcing plate 21 is disposed on a side of the abutting plate 23 away from the SSD. Standing groove 11 is vertical and has seted up guide way 16 respectively along the both sides wall of its length, and gusset plate 21 both ends integrated into one piece have guide block 212 respectively, and guide block 212 slides and connects in guide way 16, and gusset plate 21 keeps away from the lateral wall of butt joint board 23 and has seted up inclined plane 211, and inclined plane 211 is close to guide block 212 one end and is close to the setting of butt joint board 23 direction.

Referring to fig. 2, a sliding groove 12 is formed in the side wall, away from the SSD, of the placing groove 11, a sliding block 4 is connected to the sliding groove 12 in a sliding manner, one end of the sliding block 4 is arranged outside the sliding groove 12, an abutting inclined surface 42 is formed on the side wall, close to the reinforcing plate 21, of the sliding block 4, the abutting inclined surface 42 is parallel to the inclined surface 211, and the abutting inclined surface 42 abuts against the inclined surface 211. The abutting plate 23 abuts against the SSD, the abutting plate 23 limits the SSD position through the spring 22, the sliding block 4 slides along the sliding groove 12, the reinforcing plate 21 is pushed to move towards the direction close to the abutting plate 23, the compression amount of the spring 22 is increased, the acting force between the abutting plate 23 and the SSD is increased, and therefore the SSD position is more stable.

Referring to fig. 2, the upper surface of the fixing frame 1 is provided with a pushing groove 17, the pushing groove 17 is communicated with the sliding groove 12, and the length direction of the pushing groove 17 is parallel to the length direction of the sliding groove 12. The push rod 41 is integrally formed on the upper surface of the sliding block 4, the push rod 41 is connected to the pushing groove 17 in a sliding mode, the sliding block 4 is moved through the push rod 41, and operation is simpler and more convenient.

Referring to fig. 2, in order to limit the sliding of the sliding block 4 and keep the effect of the reinforcing plate 21 pressing the spring 22 stable, the fixing frame 1 is further connected with a positioning component 3, the positioning component 3 comprises a sleeve 31 and an abutting ring 32, the sleeve 31 is coaxially sleeved at the upper end of the push rod 41, and the sleeve 31 is in threaded connection with the push rod 41. The abutting ring 32 is coaxially welded and fixed on the side wall of the sleeve 31, the abutting ring 32 is arranged at the lower end of the sleeve 31, and the sleeve 31 is rotated to enable the lower surface of the abutting ring 32 to abut against the fixed frame 1, so that the sliding block 4 is limited to move.

Referring to fig. 2, the lower side wall of the sliding groove 12 is provided with a limited rotation groove 13, the length direction of the limited rotation groove 13 is parallel to the length direction of the sliding groove 12, a limited rotation block 43 is integrally formed on the lower surface of the sliding block 4, the limited rotation block 43 is connected to the limited rotation groove 13 in a sliding mode, the cross section of the limited rotation block 43 is quadrilateral, the limited rotation block 43 limits the rotation of the sliding block 4, the position of the sliding block 4 is kept stable when the sleeve 31 is rotated, and the abutting plate 23 is convenient to limit the position of the SSD.

Referring to fig. 1, a buffer pad 231 is fixed to a side wall of the abutting plate 23 away from the reinforcing plate 21, the buffer pad 231 is made of rubber, and the buffer pad 231 abuts against the SSD, thereby increasing positional stability of the SSD.

Referring to fig. 1, a plurality of ventilation holes 14 are formed through the side wall of the placing groove 11 away from the opening of the placing groove, so that heat dissipation of the SSD is facilitated, and two fans 5 are arranged on the side wall of the placing groove 11 away from the opening of the placing groove and used for further heat dissipation of the SSD, so that the SSD stably works.

Referring to fig. 2, the fixing plate 15 is welded and fixed to both sides of the fixing frame 1, a plurality of fixing holes 151 penetrate through the upper surface of the fixing plate 15, and the fixing frame 1 is connected to the chassis through the fixing holes 151. The damping sleeve 152 is arranged in the fixing hole 151, the damping sleeve 152 comprises a head portion 1521 and a tail portion 1522, the diameter of the head portion 1521 is larger than that of the fixing hole 151, the tail portion 1522 is arranged in the fixing hole 151, the head portion 1521 is arranged outside the fixing hole 151, the damping sleeve 152 is made of rubber, and a positioning bolt 153 arranged in the damping sleeve 152 penetrates through the damping sleeve 152. The positioning bolt 153 abuts against the damping sleeve 152, so that the vibration of the chassis to the fixing frame 1 is reduced, and the SSD position is kept stable.

The implementation principle of the high-stability SSD fixed support applied to the main board in the embodiment of the application is as follows: place SSD in standing groove 11, butt plate 23 butt in SSD under the spring 22 effect, then let sliding block 4 slide along sliding groove 12 through push rod 41, sliding block 4 butt is the curved lateral wall in gusset plate 21 to promote gusset plate 21 towards being close to 23 direction movements of butt plate, make spring 22 compression capacity increase, spring 22 increases to the pressure of butt plate 23, thereby the effort between butt plate 23 and the SSD increases.

When taking out the SSD, the sleeve 31 is rotated to separate the contact from the fixing frame 1, the slide plate is moved, the reinforcing plate 21 is moved in a direction away from the contact plate 23 by the spring 22, the compression amount of the spring 22 is reduced, the stress between the contact plate 23 and the SSD is reduced, and then the SSD is taken out directly from the placing groove 11.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a be applied to high stability SSD fixed bolster of mainboard which characterized in that: the SSD-bearing support comprises a fixing frame (1) for mounting an SSD and a limiting part (2) for limiting the position of the SSD, wherein a placing groove (11) for placing the SSD is formed in the upper surface of the fixing frame (1), the limiting part (2) is arranged at one end of the placing groove (11), the limiting part (2) comprises a butting plate (23) for limiting the position of the SSD, a plurality of springs (22) for driving the butting plate (23) to move and a reinforcing plate (21) for further increasing the stability of the SSD, the limiting part (2) is connected to the placing groove (11) in a sliding manner, the butting plate (23), the springs (22) and the reinforcing plate (21) are sequentially connected, when the SSD is placed in the placing groove (11), the butting plate (23) butts against the SSD, an inclined surface (211) is formed in the side wall of the reinforcing plate (21) far away from the SSD, one end of the inclined surface (211) is arranged towards the direction close to, the sliding block (4) is abutted against the inclined surface (211).

2. The high-stability SSD fixing bracket applied to the main board of claim 1, wherein: standing groove (11) are close to the lateral wall of gusset plate (21) and have been seted up groove (12) that slides, sliding block (4) slide and connect in groove (12) that slides, sliding block (4) upper surface is fixed with push rod (41) of being convenient for promote sliding block (4), promote groove (17) have been seted up to mount (1) upper surface, promote groove (17) and sliding groove (12) intercommunication, push rod (41) slide and connect in promotion groove (17).

3. The high-stability SSD fixing bracket applied to the main board of claim 2, wherein: the fixing frame (1) is connected with a positioning part (3) for limiting the push rod (41) to move, the positioning part (3) comprises a sleeve (31) coaxially sleeved on the push rod (41) and a butting ring (32) butted on the fixing frame (1), the sleeve (31) is in threaded connection with the upper end of the push rod (41), and the butting ring (32) is coaxially fixed on the side wall of the sleeve (31).

4. The high-stability SSD fixing bracket applied to the main board of claim 2, wherein: the lower side wall of the placing groove (11) is provided with a rotation limiting groove (13) for limiting rotation of the push rod (41), the lower surface of the sliding block (4) is fixedly provided with a rotation limiting block (43), the rotation limiting block (43) is connected to the rotation limiting groove (13) in a sliding mode, and the cross section of the rotation limiting block (43) is polygonal.

5. The high-stability SSD fixing bracket applied to the main board of claim 1, wherein: the side wall of the abutting plate (23) far away from the reinforcing plate (21) is fixed with a buffer pad (231) for improving the stability of the SSD.

6. The high-stability SSD fixing bracket applied to the main board of claim 1, wherein: the side wall of the placing groove (11) far away from the opening is provided with a plurality of ventilation holes (14) for ventilation and heat dissipation.

7. The high-stability SSD fixing bracket applied to the main board of claim 1, wherein: fixed plate (15) are fixed with to mount (1) both sides, fixed plate (15) upper surface runs through there are a plurality of fixed orificess (151), be provided with in fixed orificess (151) and increase shock attenuation cover (152) of mount (1) shock resistance, shock attenuation cover (152) include head (1521) and afterbody (1522), head (1521) diameter is greater than fixed orificess (151) diameter, outside fixed orificess (151) were arranged in to head (1521), in fixed orificess (151) were arranged in to afterbody (1522), be provided with in shock attenuation cover (152) and inject positioning bolt (153) of mount (1) position.

8. The high-stability SSD fixing bracket applied to the main board of claim 1, wherein: the lower surface of the placing groove (11) is provided with a plurality of fans (5) for heat dissipation.

9. The high-stability SSD fixing bracket applied to the main board of claim 1, wherein: the side wall of the sliding block (4) close to the reinforcing plate (21) is provided with an abutting inclined surface (42), and the abutting inclined surface (42) is parallel to the inclined surface (211).

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